//-----------------------------------------------------------------------------
//
//	MultiChannelAssociation.cpp
//
//	Implementation of the Z-Wave COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION
//
//	Copyright (c) 2010 Mal Lansell <openzwave@lansell.org>
//
//	SOFTWARE NOTICE AND LICENSE
//
//	This file is part of OpenZWave.
//
//	OpenZWave is free software: you can redistribute it and/or modify
//	it under the terms of the GNU Lesser General Public License as published
//	by the Free Software Foundation, either version 3 of the License,
//	or (at your option) any later version.
//
//	OpenZWave is distributed in the hope that it will be useful,
//	but WITHOUT ANY WARRANTY; without even the implied warranty of
//	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
//	GNU Lesser General Public License for more details.
//
//	You should have received a copy of the GNU Lesser General Public License
//	along with OpenZWave.  If not, see <http://www.gnu.org/licenses/>.
//
//-----------------------------------------------------------------------------

#include "tinyxml.h"
#include "command_classes/CommandClasses.h"
#include "command_classes/MultiChannelAssociation.h"
#include "Defs.h"
#include "Msg.h"
#include "Driver.h"
#include "Node.h"
#include "Group.h"
#include "platform/Log.h"

namespace OpenZWave
{
	namespace Internal
	{
		namespace CC
		{

			enum MultiChannelAssociationCmd
			{
				MultiChannelAssociationCmd_Set = 0x01,
				MultiChannelAssociationCmd_Get = 0x02,
				MultiChannelAssociationCmd_Report = 0x03,
				MultiChannelAssociationCmd_Remove = 0x04,
				MultiChannelAssociationCmd_GroupingsGet = 0x05,
				MultiChannelAssociationCmd_GroupingsReport = 0x06
			};

// <MultiChannelAssociation::MultiChannelAssociation>
// Constructor
//-----------------------------------------------------------------------------
			MultiChannelAssociation::MultiChannelAssociation(uint32 const _homeId, uint8 const _nodeId) :
					CommandClass(_homeId, _nodeId), m_queryAll(false), m_numGroups(0)
			{
				m_com.EnableFlag(COMPAT_FLAG_MCA_FORCEINSTANCES, true);
				SetStaticRequest(StaticRequest_Values);
			}

//-----------------------------------------------------------------------------
// <MultiChannelAssociation::ReadXML>
// Read the saved association data
//-----------------------------------------------------------------------------
			void MultiChannelAssociation::ReadXML(TiXmlElement const* _ccElement)
			{
				CommandClass::ReadXML(_ccElement);

				TiXmlElement const* associationsElement = _ccElement->FirstChildElement();
				while (associationsElement)
				{
					char const* str = associationsElement->Value();
					if (str && !strcmp(str, "Associations"))
					{
						int intVal;
						if (TIXML_SUCCESS == associationsElement->QueryIntAttribute("num_groups", &intVal))
						{
							m_numGroups = (uint8) intVal;
						}

						TiXmlElement const* groupElement = associationsElement->FirstChildElement();
						while (groupElement)
						{
							if (Node* node = GetNodeUnsafe())
							{
								Group* group = new Group(GetHomeId(), GetNodeId(), groupElement);
								node->AddGroup(group);
							}

							groupElement = groupElement->NextSiblingElement();
						}

						break;
					}

					associationsElement = associationsElement->NextSiblingElement();
				}

			}

//-----------------------------------------------------------------------------
// <MultiChannelAssociation::WriteXML>
// Save the association data
//-----------------------------------------------------------------------------
			void MultiChannelAssociation::WriteXML(TiXmlElement* _ccElement)
			{
				CommandClass::WriteXML(_ccElement);

				if (Node* node = GetNodeUnsafe())
				{
					TiXmlElement* associationsElement = new TiXmlElement("Associations");

					char str[8];
					snprintf(str, 8, "%d", m_numGroups);
					associationsElement->SetAttribute("num_groups", str);

					_ccElement->LinkEndChild(associationsElement);
					node->WriteGroups(associationsElement);
				}
			}

//-----------------------------------------------------------------------------
// <MultiChannelAssociation::RequestState>
// Nothing to do for Association
//-----------------------------------------------------------------------------
			bool MultiChannelAssociation::RequestState(uint32 const _requestFlags, uint8 const _endPoint, Driver::MsgQueue const _queue)
			{
				if ((_requestFlags & RequestFlag_Static) && HasStaticRequest(StaticRequest_Values))
				{
					// Request the supported group info
					return RequestValue(_requestFlags, 0, _endPoint, _queue);
				}

				return false;
			}

//-----------------------------------------------------------------------------
// <MultiChannelAssociation::RequestValue>
// Nothing to do for Association
//-----------------------------------------------------------------------------
			bool MultiChannelAssociation::RequestValue(uint32 const _requestFlags, uint16 const _dummy1,	// = 0 (not used)
					uint8 const _endPoint, Driver::MsgQueue const _queue)
			{
				if (_endPoint != 1)
				{
					// This command class doesn't work with multiple End Points
					return false;
				}
				// Request the supported group info
				Msg* msg = new Msg("MultiChannelAssociationCmd_GroupingsGet", GetNodeId(), REQUEST, FUNC_ID_ZW_SEND_DATA, true, true, FUNC_ID_APPLICATION_COMMAND_HANDLER, GetCommandClassId());
				msg->Append(GetNodeId());
				msg->Append(2);
				msg->Append(GetCommandClassId());
				msg->Append(MultiChannelAssociationCmd_GroupingsGet);
				msg->Append(GetDriver()->GetTransmitOptions());
				GetDriver()->SendMsg(msg, _queue);
				return true;
			}

//-----------------------------------------------------------------------------
// <Association::RequestAllGroups>
// Request the contents of each group in turn
//-----------------------------------------------------------------------------
			void MultiChannelAssociation::RequestAllGroups(uint32 const _requestFlags)
			{
				m_queryAll = true;

				// Request the contents of the individual groups in turn.
				if (m_numGroups == 0xff)
				{
					// We start with group 255, and will then move to group 1, 2 etc and stop when we find a group with a maxAssociations of zero.
					Log::Write(LogLevel_Info, GetNodeId(), "Number of association groups reported for node %d is 255, which requires special case handling.", GetNodeId());
					QueryGroup(0xff, _requestFlags);
				}
				else
				{
					// We start with group 1, and will then move to group 2, 3 etc and stop when the group index is greater than m_numGroups.
					Log::Write(LogLevel_Info, GetNodeId(), "Number of association groups reported for node %d is %d.", GetNodeId(), m_numGroups);
					QueryGroup(1, _requestFlags);
				}
			}

//-----------------------------------------------------------------------------
// <MultiChannelAssociation::HandleMsg>
// Handle a message from the Z-Wave network
//-----------------------------------------------------------------------------
			bool MultiChannelAssociation::HandleMsg(uint8 const* _data, uint32 const _length, uint32 const _endPoint	// = 1
					)
			{
				bool handled = false;
				uint32 i;

				if (Node* node = GetNodeUnsafe())
				{
					if (MultiChannelAssociationCmd_GroupingsReport == (MultiChannelAssociationCmd) _data[0])
					{
						// Retrieve the number of groups this device supports.
						// The groups will be queried with the session data.
						m_numGroups = _data[1];
						Log::Write(LogLevel_Info, GetNodeId(), "Received MULTI_CHANNEL_ASSOCIATION_GROUPINGS_REPORT from node %d. Number of groups is %d", GetNodeId(), m_numGroups);
						ClearStaticRequest(StaticRequest_Values);
						handled = true;
					}
					else if (MultiChannelAssociationCmd_Report == (MultiChannelAssociationCmd) _data[0])
					{
						// Get the group info
						uint8 groupIdx = _data[1];
						uint8 maxAssociations = _data[2];		// If the maxAssociations is zero, this is not a supported group.
						uint8 numReportsToFollow = _data[3];	// If a device supports a lot of associations, they may come in more than one message.

						if (groupIdx != 0) {
							if (maxAssociations)
							{
								if (_length >= 5)
								{
									// format:
									//   node A
									//   node B
									//   0x00 Marker
									//   node C 
									//   End Point #
									//   node D
									//   End Point #
									Log::Write(LogLevel_Info, GetNodeId(), "Received MULTI_CHANNEL_ASSOCIATION_REPORT from node %d, group %d", GetNodeId(), groupIdx);
									Log::Write(LogLevel_Info, GetNodeId(), "  The group contains:");
									bool pastMarker = false;
									for (i = 0; i < _length - 5; ++i)
									{
										if (_data[i + 4] == 0x00)
										{
											pastMarker = true;
										}
										else
										{
											if (!pastMarker)
											{
												Log::Write(LogLevel_Info, GetNodeId(), "    Node %d", _data[i + 4]);
												InstanceAssociation association;
												association.m_nodeId = _data[i + 4];
												association.m_instance = 0x00;
												m_pendingMembers.push_back(association);
											}	
											else
											{
												Log::Write(LogLevel_Info, GetNodeId(), "    Node %d End Point %d", _data[i + 4], _data[i + 5]);
												InstanceAssociation association;
												association.m_nodeId = _data[i + 4];
												association.m_instance = _data[i + 5];
												m_pendingMembers.push_back(association);
												i++;
											}
										}
									}
								}

								if (numReportsToFollow)
								{
									// We're expecting more reports for this group
									Log::Write(LogLevel_Info, GetNodeId(), "%d more association reports expected for node %d, group %d", numReportsToFollow, GetNodeId(), groupIdx);
									return true;
								}
								else
								{
									// No more reports to come for this group, so we can apply the pending list
									Group* group = node->GetGroup(groupIdx);
									if ( NULL == group)
									{
										// Group has not been created yet
										group = new Group(GetHomeId(), GetNodeId(), groupIdx, maxAssociations);
										node->AddGroup(group);
									}
									group->SetMultiInstance(true);

									// Update the group with its new contents
									group->OnGroupChanged(m_pendingMembers);
									m_pendingMembers.clear();
								}
							}
							else
							{
								// maxAssociations is zero, so we've reached the end of the query process
								Log::Write(LogLevel_Info, GetNodeId(), "Max associations for node %d, group %d is zero.  Querying associations for this node is complete.", GetNodeId(), groupIdx);
								node->AutoAssociate();
								m_queryAll = false;
							}
						} else {
							Log::Write(LogLevel_Warning, GetNodeId(), "Recieved Group 0 Assocation - Invalid");
						}
						if (m_queryAll)
						{
							// Work out which is the next group we will query.
							// If we are currently on group 255, the next group will be 1.
							uint8 nextGroup = m_currentGroupQuery + 1;
							if (!nextGroup)
							{
								nextGroup = 1;
							}

							if (nextGroup <= m_numGroups)
							{
								// Query the next group
								QueryGroup(nextGroup, 0);
							}
							else
							{
								// We're all done
								Log::Write(LogLevel_Info, GetNodeId(), "Querying associations for node %d is complete.", GetNodeId());
								node->AutoAssociate();
								m_queryAll = false;
								m_currentGroupQuery = 0;
							}
						}

						handled = true;
					}
				}

				return handled;
			}

//-----------------------------------------------------------------------------
// <MultiChannelAssociation::QueryGroup>
// Request details of an association group
//-----------------------------------------------------------------------------
			void MultiChannelAssociation::QueryGroup(uint8 _groupIdx, uint32 const _requestFlags)
			{
				if (m_com.GetFlagBool(COMPAT_FLAG_GETSUPPORTED))
				{
					Log::Write(LogLevel_Info, GetNodeId(), "Get MultiChannelAssociation for group %d of node %d", _groupIdx, GetNodeId());
					Msg* msg = new Msg("MultiChannelAssociationCmd_Get", GetNodeId(), REQUEST, FUNC_ID_ZW_SEND_DATA, true, true, FUNC_ID_APPLICATION_COMMAND_HANDLER, GetCommandClassId());
					msg->Append(GetNodeId());
					msg->Append(3);
					msg->Append(GetCommandClassId());
					msg->Append(MultiChannelAssociationCmd_Get);
					msg->Append(_groupIdx);
					msg->Append(GetDriver()->GetTransmitOptions());
					GetDriver()->SendMsg(msg, Driver::MsgQueue_Send);
					if (m_queryAll) 
						m_currentGroupQuery = _groupIdx;
					return;
				}
				else
				{
					Log::Write(LogLevel_Info, GetNodeId(), "MultiChannelAssociationCmd_Get Not Supported on this node");
				}
				return;
			}

//-----------------------------------------------------------------------------
// <MultiChannelAssociation::Set>
// Add an association between devices
//-----------------------------------------------------------------------------
			void MultiChannelAssociation::Set(uint8 _groupIdx, uint8 _targetNodeId, uint8 _endPoint)
			{

				/* for Qubino devices, we should always set a End Point if its the ControllerNode, so MultChannelEncap works.  - See Bug #857 */
				if ((m_com.GetFlagBool(COMPAT_FLAG_MCA_FORCEINSTANCES) == true) && (_endPoint == 0) && (GetDriver()->GetControllerNodeId() == _targetNodeId))
				{
					_endPoint = 0x01;
				}

				Log::Write(LogLevel_Info, GetNodeId(), "MultiChannelAssociation::Set - Adding End Point %d on node %d to group %d of node %d", _endPoint, _targetNodeId, _groupIdx, GetNodeId());

				if (_endPoint == 0x00)
				{
					Msg* msg = new Msg("MultiChannelAssociationCmd_Set", GetNodeId(), REQUEST, FUNC_ID_ZW_SEND_DATA, true);
					msg->Append(GetNodeId());
					msg->Append(4);
					msg->Append(GetCommandClassId());
					msg->Append(MultiChannelAssociationCmd_Set);
					msg->Append(_groupIdx);
					msg->Append(_targetNodeId);
					msg->Append(GetDriver()->GetTransmitOptions());
					GetDriver()->SendMsg(msg, Driver::MsgQueue_Send);
				}
				else
				{
					Msg* msg = new Msg("MultiChannelAssociationCmd_Set", GetNodeId(), REQUEST, FUNC_ID_ZW_SEND_DATA, true);
					msg->Append(GetNodeId());
					msg->Append(6);
					msg->Append(GetCommandClassId());
					msg->Append(MultiChannelAssociationCmd_Set);
					msg->Append(_groupIdx);
					msg->Append(0x00); // marker
					msg->Append(_targetNodeId);
					msg->Append(_endPoint);
					msg->Append(GetDriver()->GetTransmitOptions());
					GetDriver()->SendMsg(msg, Driver::MsgQueue_Send);
				}
			}

//-----------------------------------------------------------------------------
// <MultiChannelAssociation::Remove>
// Remove an association between devices
//-----------------------------------------------------------------------------
			void MultiChannelAssociation::Remove(uint8 _groupIdx, uint8 _targetNodeId, uint8 _endPoint)
			{
				Log::Write(LogLevel_Info, GetNodeId(), "MultiChannelAssociation::Remove - Removing End Point %d on node %d from group %d of node %d", _endPoint, _targetNodeId, _groupIdx, GetNodeId());

				if (_endPoint == 0x00)
				{
					Msg* msg = new Msg("MultiChannelAssociationCmd_Remove", GetNodeId(), REQUEST, FUNC_ID_ZW_SEND_DATA, true);
					msg->Append(GetNodeId());
					msg->Append(4);
					msg->Append(GetCommandClassId());
					msg->Append(MultiChannelAssociationCmd_Remove);
					msg->Append(_groupIdx);
					msg->Append(_targetNodeId);
					msg->Append(GetDriver()->GetTransmitOptions());
					GetDriver()->SendMsg(msg, Driver::MsgQueue_Send);
				}
				else
				{
					Msg* msg = new Msg("MultiChannelAssociationCmd_Remove", GetNodeId(), REQUEST, FUNC_ID_ZW_SEND_DATA, true);
					msg->Append(GetNodeId());
					msg->Append(6);
					msg->Append(GetCommandClassId());
					msg->Append(MultiChannelAssociationCmd_Remove);
					msg->Append(_groupIdx);
					msg->Append(0x00); // marker
					msg->Append(_targetNodeId);
					msg->Append(_endPoint);
					msg->Append(GetDriver()->GetTransmitOptions());
					GetDriver()->SendMsg(msg, Driver::MsgQueue_Send);
				}
			}
		} // namespace CC
	} // namespace Internal
} // namespace OpenZWave

